Bayan Har block explained

The Bayan Har block or Bayan Kola block is an elongate wedge-shaped block that forms part of the eastern Tibetan Plateau. It is bounded to the southeast by the Longmenshan Fault, a major thrust fault zone, which forms the active tectonic boundary between the plateau and the Sichuan Basin. To the northeast, the boundary is formed by the Kunlun and Minjiang Faults juxtaposing the block against the Eastern Kunlun-Qaidam block[1] and to the southwest by the Xianshuihe fault system forms its boundary with the Qiangtang block.[2] All of these are major left-lateral strike-slip fault zones. The block is currently moving to the southeast relative to the South China block.[3] [4]

Internal deformation

The southeastern part of the block, known as the Longmenshan sub-block, accommodates a significant part of its eastward motion. The northwestern boundary of this sub-block is formed by the parallel Longriba and Maoergai faults, with the former showing evidence of mainly thrusting to the southeast and the latter showing a significant component of right lateral strike-slip. The NW-SE shortening within the sub-block is caused by the resistance offered by the stronger lithosphere of the South China Block, which has led to a backwards propagating thrust system.[5] The area between the Longriba and Longmenshan faults has a current uplift rate of 1.5 mm per year. This model is consistent with observations of increased slip rates on the more southeasterly parts of the Xianshuihe fault system.[6]

Seismicity

Earthquakes are mainly concentrated on the faults bounding the block, such as the 2001 Kunlun earthquake (on the Kunlun Fault), the 2008 Sichuan earthquake (on the Longmenshan Fault) and the 1973 Luhuo earthquake, 1981 Dawu earthquake and 2010 Yushu earthquake (all on the Xianshuihe fault system).[1] In May 2021, the block hosted the Maduo earthquake; upon further analysis, found that the intraplate earthquake occurred on a fault within the block.[7]

Notes and References

  1. Wang . J. . Xu . C. . Freymueller . J.T. . Li . Z. . 2017 . Probing Coulomb stress triggering effects for a Mw > 6.0 earthquake sequence from 1997 to 2014 along the periphery of the Bayan Har block on the Tibetan Plateau . Tectonophysics . 694 . 249–267 . 10.1016/j.tecto.2016.11.009. 2017Tectp.694..249W . free .
  2. Xu . C. . Xu . X. . Shyu . J.B.H. . Gao . M. . Tan . X. . Ran . Y. . Zheng . W. . 2015 . Landslides triggered by the 20 April 2013 Lushan, China, Mw 6.6 earthquake from field investigations and preliminary analyses . Landslides . 12 . 2 . 365–385 . 10.1007/s10346-014-0546-1. 129486468 .
  3. Xu . X.W. . Wen . X.Z. . Chen . G.H. . Yu . G.H. . 2008 . Discovery of the Longriba Fault Zone in Eastern Bayan Har Block, China and its tectonic implication . Science in China Series D: Earth Sciences . 51 . 9 . 1209–1223. 10.1007/s11430-008-0097-1 . 2008ScChD..51.1209X . 128682470 .
  4. Yujun Sun, Taoyuan Fan, Chunjing Zhou, Zhonghai Wu . The Evolution of Stress and Strain around the Bayan Har Block in the Tibetan Plateau . Journal of Earthquakes . 2015 . 2015 . 10 . 10.1155/2015/971628 . 971628. free .
  5. Xu . X.W. . Wen . X.Z. . Chen . G.H. . Yu . G.H. . 2008 . Discovery of the Longriba Fault Zone in Eastern Bayan Har Block, China and its tectonic implication . Science in China Series D: Earth Sciences . 51 . 9 . 1209–1223. 10.1007/s11430-008-0097-1 . 2008ScChD..51.1209X . 128682470 .
  6. Qiao . X. . Zhou . Y. . Zhang . P. . 2022 . Along-strike variation in fault structural maturity and seismic moment deficits on the Yushu-Ganzi-Xianshuihe fault system revealed by strain accumulation and regional seismicity . Earth and Planetary Science Letters . 596 . 10.1016/j.epsl.2022.117799.
  7. Zhiyu Gao . Yanchuan Li . Xinjian Shan . Chuanhua Zhu . Earthquake Magnitude Estimation from High-rate GNSS Data: A Case Study of the 2021 Mw 7.3 Maduo Earthquake . Remote Sensing . 8 November 2021 . 13 . 4478 . 4478 . 10.3390/rs13214478. 2021RemS...13.4478G . free .